Mycobacterium tuberculosis is a major health threat, necessitating novel drug targets. Protein synthesis in bacteria uses initiator tRNA charged with formylated methionine residue. Deletion of the formylase gene, tRNA-formyl transferase (fmt), causes severe growth-retardation in E. coli and in S. pneumoniae, but not in P. aeruginosa or S. aureus. fmt was predicted to be essential in M. tuberculosis by transposon library analysis, but this was never formally tested in any mycobacteria. We performed a targeted deletion of fmt in M. smegmatis as well as Mtb-complex (M. bovis). In both cases, we created a mero-diploid strain, deleted the native gene by two-step allelic exchange or specialized-phage transduction, and then removed the complementing gene to create full deletion mutants. In M. smegmatis a full deletion strain could be easily created. In contrast, in M. bovis-BCG, a full deletion strain could only be created after incubation of 6 weeks, with a generation time ~2 times longer than for wt bacteria. Our results confirm the importance of this gene in pathogenic mycobacteria, but as the deletion mutant is viable, validity of fmt as a drug target remains unclear. Our results also refute the previous reports that fmt is essential in M. tuberculosis-complex.
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